Basic concepts, variables, and classifications C:\Documents and Settings\Sopoušek\Dokumenty\Obrázky\reakce enzym.jpg Dynamics, Thermodynamics, Chemical Kinetics Dynamics is a scientific discipline that studies the forces and consequences of their action, ie cause and quality changes (move, events): ( i) Newtonian dynamics studies gravitation events induced by forces, ie the gradient of the gravitational potential. ( ii ) Electrodynamics studying events induced by Coulomb forces, ie the gradient of electric potential. ( iii ) Magnetodynamics studying events induced magnetic forces, ie the gradient of the magnetic potential . Thermodynamics studies events induced by thermodynamic forces. ie the gradients of thermodynamic potentials: Gibbs energy G or Helmholtz energy F. Gradient G or F induced by local differences in composition within the system (maintaining its overall composition) is the driving force of diffusion. Gradient G or F caused by temperature differences within the system is the driving force of termodiffusion. Gradient G or F associated with a change in the overall composition of the system is the driving force of chemical transformations in the system - chemical reactions. Thermodynamic system The changes are spontaneous if The changes are spontaneous at constant p,t if DG can be any sign, ie. also positive if one product is removing http://2.bp.blogspot.com/-GdZdtCPM-cs/Tplik8XfRfI/AAAAAAAAAvo/gmOLHFE_Cg4/s1600/thermos+flask.jpg The changes are spontaneous at constant V,t if DF = DU-T DS < 0 DG = DH-T DS < 0 DX=Xafter-Xbefore Thermodynamics can provide both qualitative and quantitative answer to the question of what changes may occur in the reaction system under certain conditions. Provides notice of the potential feasibility of changes in the system. It does not provide information about the speed of these changes. Kinetics of the scientific disciplines studying velocity changes induced by force . Chemical kinetics is a scientific disciplines studying the rate of chemical reactions and the factors that influence them. http://schoolworkhelper.net/wp-content/uploads/2012/04/Equilibrium-Open-Systems.jpg What question deals with the chemical kinetics ? 1. Speed ​​and rate equations of chemical reactions 2. Derivation of rate equations of the mechanisms of chemical reactions. 3. Experimental methods of studying the rate of chemical reactions. 4. Analysis and interpretation of chemical - kinetic data . 5. Theory of elementary chemical reactions. • models of elementary reactions , • calculations of the rate constants of the structural parameters of the reactants , • selection rules (prohibitions) relating to elementary reactions. 6. Effects of physical and chemical environmental parameters on the reaction rate (temperature, pressure, solvent, pH , ionic strength, latent state system, the presence of phase interface). 7. The effects of substance and energy flows inside the reaction system and the reaction system and its surroundings on the reaction rate. 8. Relationships between chemical structure and reactivity of substances . 9. Catalysis and inhibition of chemical reactions. Chemical reactions and equations Chemical reaction is a process taking place on the electron structure of chemical species (atoms, molecules, ions, radicals, coordinating particles, clusters, etc. ), The original particle structural changes in the new particles with different chemical structure. • The reactant is a substance or its particles, which enters in chemical reaction. • The product is a substance or its particle, which creates during chemical reaction. • Intermediate means a substance or a its particle, which occurs and subsequently disappears during chemical reaction. When continuing the reaction is slow, the intermediate can be obtained even in isolatable form. Chemical reactions are carried out following elementary processes: • splitting the original chemical bonds; • creation of new chemical bonds; • the transfer of electrons between reactants (different redox reaction) Stoichiometric (chemical ) equation is a brief, formal description of a chemical reaction in which the left side of the figure symbols (or acronyms ) and number of particles of reactants and right of the symbols and the number of particles of products are equivalent to one basic reaction turnover. https://encrypted-tbn2.gstatic.com/images?q=tbn:ANd9GcT-ocPq82l_Ax4_-vDrNrjYsDmTJRFhcq9WNbJRnaoG2hd Vq61K0A http://upload.wikimedia.org/wikipedia/commons/thumb/6/63/Reaction_path.JPG/380px-Reaction_path.JPG CH4+2O2 ®CO2+2H2O 1 basic reaction turnover was realized if 1 mol CH4 and 2O2 were converted to 1molCO2 and 2mol H2O. Stoichiometric chemical equation Chemical equations can be supplemented by other data related to the conditions and the manner of its execution. These are mainly: • heat of reaction, reaction enthalpy, reaction Gibbs energy, etc., which are shown in the chemical equation • the catalyst, solvent, reaction temperature, reaction pressure, etc., which are usually printed above or below the arrow pointing from reactants to products. For example the synthesis of ammonia from the elements describing the stoichiometric equation: http://upload.wikimedia.org/wikipedia/commons/thumb/8/87/BaseCatalyzedKetoneHydrogenation.svg/500px -BaseCatalyzedKetoneHydrogenation.svg.png H2+ http://www.acs.org/content/acs/en/noteworthy-chemistry/2013-archive/september-23/_jcr_content/artic leContent/columnsbootstrap/column0/image_0.img.jpg/1379701449294.jpg Proper writing of chemical equations for the kinetics Stoichiometric coefficient. The figures indicating the number of particles of reactants and products participating in one basic reaction turnover are called stoichiometric coefficients of the reaction. The correct chemical equation has all stoichiometric coefficients equal smallest possible natural numbers (none of them is a fraction)! Wrong Correct Mathematic notation of chemical equation Extent of reaction is defined as the number of moles of basic reaction turnover realized from the start chemical reactions in the reaction time t. The extent of reaction calculated from the equation: Discussion http://www.meta-synthesis.com/webbook/24_complexity/thermochem.jpg